
Cactus
 Referenced in 79 articles
[sw04422]
 variety of computing applications in science and engineering, including astrophysics, relativity and chemical engineering ... able to provide the latest advances in computational science, such as interchangeable parallel data distribution...

DarkSUSY
 Referenced in 28 articles
[sw09107]
 matter candidates. DarkSUSY also computes a large variety of astrophysical signals from neutralino dark matter ... detailed manual will be provided with the computer package...

LORENE
 Referenced in 8 articles
[sw09576]
 numerical relativity, and more generally in computational astrophysics. It provides tools to solve partial differential...

Einstein Toolkit
 Referenced in 26 articles
[sw08471]
 software for relativistic astrophysics. Our aim is to provide the core computational tools that...

DistDLB
 Referenced in 11 articles
[sw01957]
 DistDLB: improving cosmology SAMR simulations on distributed computing systems through hierarchical load balancing Cosmology SAMR ... role in the field of astrophysics. The emerging distributed computing systems provide an economic alternative...

GRHydro
 Referenced in 4 articles
[sw08469]
 source communitydriven numerical relativity and computational relativistic astrophysics code. The GRMHD extension...

HOPE
 Referenced in 2 articles
[sw21688]
 Python justintime compiler for astrophysical computations, Astronomy and Computing. The Python programming language ... large data sets, as is common in astrophysics and cosmology. While various frameworks have been...

CLBlast
 Referenced in 1 article
[sw20249]
 demonstrates how to accelerate dense linear algebra computations using CLBlast, an opensource OpenCL BLAS ... applications (e.g. deep learning, iterative solvers, astrophysics, computational fluid dynamics, quantum chemistry). CLBlast has four...

ShaPo
 Referenced in 4 articles
[sw34849]
 involved in numerous applications from astrophysics to biology or computer graphics. Their properties are especially...

ENZO
 Referenced in 15 articles
[sw12438]
 code, designed for rich, multiphysics hydrodynamic astrophysical calculations. Enzo is freely available, developed ... capable of running on computers from laptop to Top500...

FINESSE
 Referenced in 8 articles
[sw09199]
 computes axisymmetric magnetohydrodynamic equilibria in poloidal elliptic flow regimes for a variety of astrophysical...

RAM
 Referenced in 12 articles
[sw18139]
 using adaptive mesh refinement (AMR) on parallel computers. We have implemented a characteristicwise, finite ... address challenging open questions in relativistic astrophysics...

PIKAIA
 Referenced in 11 articles
[sw04744]
 that apply basic evolutionary operators in a computational setting. We have designed a fully parallel ... preliminary estimate of the astrophysically important but experimentally uncertain rate for the $^{12}C(alpha ... successes suggest that a broad class of computationally intensive modeling applications could also benefit from...

VAC
 Referenced in 19 articles
[sw39740]
 solving hydrodynamical and magnetohydrodynamical problems arising in astrophysics. The software package uses modern highresolution ... Fortran 90, especially suited for dataparallel computers, or Fortran 77. A user interface based...

IRMHD
 Referenced in 4 articles
[sw08878]
 more computational effort than its explicit counterpart, whereas its range of application to astrophysical problems...

ABAKO/RAPCAL
 Referenced in 4 articles
[sw20547]
 computational package ABAKO/RAPCAL. Nonlocal thermodynamic equilibrium (NLTE) conditions are universal in laboratory and astrophysical ... this work is presented a versatile computational package, named ABAKO/RAPCAL, to calculate the populations...

MOCCT
 Referenced in 10 articles
[sw08475]
 Magnetic fields are important components of many astrophysical systems. These systems are studied with numerical ... uses information propagated along Alfvén characteristics to compute electromagnetic forces at intermediate time levels...

MAP
 Referenced in 7 articles
[sw11471]
 with adaptive mesh refinement and parallelization for astrophysics. A new code, named MAP, is written ... There are several optional numerical schemes for computing the MHD part, namely, modified Mac Cormack...

Semistencil
 Referenced in 1 article
[sw12894]
 such as geophysics, astrophysics, etc. The typical FD solver performs stencil computations for the entire...

Parsek2D
 Referenced in 3 articles
[sw18111]
 code, called Parsek2D, for the simulation of astrophysical and space plasmas is presented. Parsek2D enables ... implicit time differen tiation and parallel computing. An implicit formulation of the PIC algorithm removes...